ISOLASI BAKTERI PENGHASIL SELULOSA DARI BUAH-BUAHAN DIPASAR TRADISIONAL MAKASSAR

Herwin Herwin, Fitriana Fitriana, Ayyub Harly Nurung

Abstract


Isolation of bacterial cellulose from fruits in traditional market of Makassar have been done. The objective of this research is to adding diversity of microorganism that can producing cellulose and observe it’s both optimum temperature and pH. First step is isolation of bacteria from Watermelon, Papaya, Cantaloupe, Mango, Dragon fruit, and Banana that found in traditional market in Makassar using Hestrin-Schramm (HS) agar. Each colony bacteria have been separated to making pure culture using HS agar then the colony was screening in HS broth to obtain colony bacteria that producing cellulose. Screening test found that 10 isolate that can produce cellulose which is MB-B02, MS-B01, MS-B03, NB-B03, PB-B01, PB-B02, PB-B03, PB-B04, PS-B01, and PS-B03. Then the colony that producing cellulose was optimize its temperature and pH. Cellulose obtained from optimization was measure it’s weight to determine optimum temperature and pH. Based from optimization found that 250C was optimum temperature for MS-B01, MS-B03, NB-B03, dan PB-B04, and 370 was optimum temperature for MB-B02, PB-B01, PB-B03, PS-B01, dan PS-B03, meanwhile for isolate PB-B02 optimum both in 250C dan 370C dan pH optimum for all isolate is pH 6

Keywords


Bacterial cellulose, fruits from traditional market, Makassar, Optimizing temperature, optimizing pH.

References


Keshk SM. Bacterial Cellulose Production and Its Indsutrial Applications. Journal of Bioprocessing & Biotechniques. 2014; 4(2): 1-10.

Edgar KJ. Cellulose Esters in Drug Delivery. Cellulose. 2007; 14(1): 464.

Kamel S, Ali N, Jahangir K, Shah SM, El-Gendy AA. Pharmaceutical Significance of Cellulose - A Review. wXPRESS Polymer Letter. 2001; 127: 529-542.

Sun RC. Detoxification of Biomass of Bioethanol Biosource. 2008; 4(2): 452-455.

Park SU, Lee BK, Kim MS, Park KK, Sung WJ, Kim HY. The Possibility of Microbial Cellulose for Dressing and Scaffold Materials. Int. Wound. J. 2014; 11: 35-43.

Hestrin S, Schramm M. Synthesis of Cellulose by Acetobacter xylinum. Preparation of Freeze-Dried Cells Capable of Polymerizing Glucose to Cellulose. Biochemical Journal. 1954; 58: 345-352.

Donini IAN, Salvi DTB, Fukumoto FK, Lustri WR, Barud HS, Marchetto R. Biosynthesis and recent advances in production of bacterial cellulose. Eclética Quím. 2010; 35: 165-178.

Rangaswamy BE, Vanitha KP, Hungund BS. Microbial cellulose production from bacteria isolated from rotten fruit. International Journal of Polymer Science. 2015; 2015(280784): 1-8.

Pourramezan GZ., Roayae AM, Qezelbash QR. Optimization of Culture Conditions for Bacterial Cellulose Production by Acetobacter sp. 4B-2. Biotechnology. 2009; 8(1): 150-154.




DOI: https://doi.org/10.56711/jifa.v12i1.618

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ISSN: 2085-4714 | e-ISSN: 2502-9444

Editor's Address:

Faculty of Pharmacy, Univeristas Muslim Indonesia
2nd Campus of UMI: Jl. Urip Sumoharjo km. 5 , Makassar, South Sulawesi, Indonesia

E-mail: jurnal.farmasi@umi.ac.id

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